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Mass-Wasting
Events, Gravity Flows, and Their Impact on Channel 
Migration
and Lobe
Construction: An Example from the Nile Deep-Sea Fan, Oriental
Migeon, Sebastien1, Lies Loncke2, Emmanuelle Ducassou3, S.ébastien Garziglia1, Jean Mascle1, Eliane Gonthier4, Thierry Mulder4 (1) UMR Geosciences Azur, Villefranche sur Mer, France (2) Université de Picardie, Amiens, France (3) Université Bordeaux 1, Bordeaux, France (4) Université Bordeaux1, Talence, France
Gravity flows
and mass-wasting events are major factors controlling the development of turbidite systems on continental slopes and rises. They
control the location and construction of potential sedimentary traps for
hydrocarbon, and also participate in geohazards along
continental margins. The construction of the Rosetta turbidite system.
It consists of three main sedimentary piles that gradually shifted
southwestward. Within each pile, several meandering channels migrated toward
the deep basin through successive avulsions. Flow by-passing was a common
phenomenon along the channels, allowing the construction of large lobes clearly
identified on the backscatter imagery. Individual lobes are 100-km long and
30-km wide, and exhibit a complex morphology with small secondary channels.
Cores revealed deposition of interbedded sandy turbidites and thick debris-flow deposits. Six failures
(volume > 5 km3) affected the upper slope, east of the Rosetta canyon. The
scar observed now is 50-km long and 200-m height. On the slope, failures partly
covered some channel-levee systems, suggesting they could be responsible for
their gradual southwestward migration. Cores 40-m long collected in the
youngest failure exhibit deposits tilted by 45° and affected by microfaults. Failures probably result from rapid sea-level
drops destabilizing under-consolidated sediments. Tri-axial analyses and Morh-Coulomb models provided new insights in the physical
mechanism of failure triggering.
